Embed Size (px)
DESCRIPTION
Neurons. Ch 48. Function of the Nervous System. sensory input. motor input. sensory receptor. effector. integration. Anatomical Divisions of the Nervous System. Central Nervous System (CNS) brain spinal cord Peripheral Nervous System (PNS) cranial nerves spinal nerves. Neuroglia. - PowerPoint PPT Presentation
Citation preview
sensory receptor
sensory input
integration
motor input
effector
Central Nervous System (CNS)
• brainbrain
• spinal cordspinal cord
Peripheral Nervous System (PNS)
• cranial nervescranial nerves
• spinal nervesspinal nerves
cell body
dendrite
SynapseaxonMyelin sheath
Schwann CellsAxon
Nodes of Ranvier
bipolareye, ear, & olfactory
unipolar multipolarmost abundant type in CNSDorsal root
ganglion cells
sensory receptors
sensory neuron
interneuron
motor neuron
effector
• A Simple Nerve Circuit – the Reflex Arc.– A reflex is an autonomic response.
• Measuring Membrane Potentials.
– An unstimulated cell usually have a resting potential of -70mV.
• Ungated ion channels allow ions to diffuse across the plasma membrane.– These channels are always open.
• The action potential is repeatedly regenerated along the length of the axon.– An action potential achieved at one region of the
membrane is sufficient to depolarize a neighboring region above threshold.• Thus triggering a new action potential.• The refractory period assures that impulse conduction
is unidirectional.
Nerve impulses propagate themselves along an axon
• Saltatory conduction.– In myelinated neurons only unmyelinated
regions of the axon depolarize.• Thus, the impulse moves faster than in unmyelinated
neurons.
Presynaptic neuron
Postsynaptic membrane
Ca2+
Synaptic vesicles containing neurotransmitters
• Excitatory postsynaptic potentials (EPSP) depolarize the postsynaptic neuron.– The binding of neurotransmitter to postsynaptic
receptors open gated channels that allow Na+ to diffuse into and K+ to diffuse out of the cell.
Neural integration occurs at the cellular level
• Inhibitory postsynaptic potential (IPSP) hyperpolarize the postsynaptic neuron.– The binding of neurotransmitter to postsynaptic
receptors open gated channels that allow K+ to diffuse out of the cell and/or Cl- to diffuse into the cell.
• Acetylcholine- slows heart rate; PNS • Glutamate- most prevalent neurotransmitter in the brain• Aspartate- in CNS• GABA- inhibitory neurotransmitter• Glycine- inhibitory neurotransmitter• Norepinephrine- awakening from deep sleep• Epinephrine- increase heart rate• Dopamine- movement of skeletal muscles• Seratonin- sensory perception, temp regulation, mood,
sleep• Nitric oxide- may play a role in memory and learning• Enkephalin- inhibit pain impulses by suppressing release
of substance P• Substance P- enhances perception of pain
tyrosine
